WAVE PROPAGATION ANALYSIS AND BEHAVIOUR OF PRECAST LIGHT-WEIGHT CONCRETE PILES DURING DRIVING

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TAVASOLI OMID; GHAZAVI MAHMOUD

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Paper Information

Journal: BULLETIN OF EARTHQUAKE SCIENCE AND ENGINEERING Year:2017 | Volume:4 | Issue:1 Page(s): 11-26

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Title

WAVE PROPAGATION ANALYSIS AND BEHAVIOUR OF PRECAST LIGHT-WEIGHT CONCRETE PILES DURING DRIVING

Author(s)

TAVASOLI OMID | GHAZAVI MAHMOUD | Issue Writer Certificate

Keywords

LIGHTWEIGHT CONCRETE

PILE DRIVING

WAVE PROPAGATION

TAPERED PILE

FINITE DIFFERENCE METHOD

Abstract

The PILE DRIVING process can be easily modeled prior to installation to determine adequate and appropriate equipment selection. Pre-casted LIGHTWEIGHT CONCRETE (LWC) provide an attractive alternative to conventional pile materials such as steel and common concrete by improving the durability of deep foundations. In this paper, the drivability of cylindrical and TAPERED PILEs with LIGHTWEIGHT CONCRETE was investigated and compared with traditional pile materials using the finite difference analysis. The three-dimensional model was considered to simulate pile-soil system in drivability by FLAC3D. The vertical LWC pile was assumed to behave linear elastic, and the soil was acted in elasto-plastic material obeyed the Mohr-Coulomb failure criterion. Interface elements were also used at the soil-pile contact surfaces along the pile shaft and toe to allow the slip occur during the driving procedure. Quiet boundaries were considered to prevent waves traveling in the lateral and vertical directions for the soil. The different concrete mixtures with Leca and Scoria were assumed to compare the size of the physical properties of light aggregate, which letters S and L represent Leca and the Scoria in each concrete mix design.The analysis of WAVE PROPAGATION in LWC rods without and with damping effects were performed with fixed and free end boundary conditions. The rod gravity was neglected with no soil or other supports around the rod shaft. A half-sine stress wave was applied on the rod head. To represent the dynamic responses, the force and velocity records were monitored below the rod head to prevent the mixing up the upward stress wave and downward reflection from the rod head. The obtained results were exactly in accordance with one dimensional WAVE PROPAGATION theory in rods.The immediate F and Z.v waves shifted down after tip reflections are the reflections from the rod free head boundary condition. In fact, the downward initial compressive wave is reflected as compression type at rod fixed-end and reflected tension type at the rod free-top boundary conditions. The F wave and Z.v wave amplitudes were attenuated with time as expected due to the damping presence in the rod.The pile drivability with light weight concrete and cylindrical and tapered geometry was also investigated in clayey soil and the results were compared.Based on signal matching for LWC piles, as expected, residual displacements of pile S2 and L3 are 8 to 20% greater than common concrete piles, and pile S3 has approximately the same behaviour as pile CC.The analyses results indicate that LWS piles with selecting the appropriate mixture design and ratio between elastic modulus and specific weight have a better performance compared with common used concrete and therefore, it can affect the pile optimum penetration and economic saving of PILE DRIVING procedure.

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APA: Copy

TAVASOLI, OMID, & GHAZAVI, MAHMOUD. (2017). WAVE PROPAGATION ANALYSIS AND BEHAVIOUR OF PRECAST LIGHT-WEIGHT CONCRETE PILES DURING DRIVING. BULLETIN OF EARTHQUAKE SCIENCE AND ENGINEERING, 4(1 ), 11-26. SID. https://sid.ir/paper/265850/en

Vancouver: Copy

TAVASOLI OMID, GHAZAVI MAHMOUD. WAVE PROPAGATION ANALYSIS AND BEHAVIOUR OF PRECAST LIGHT-WEIGHT CONCRETE PILES DURING DRIVING. BULLETIN OF EARTHQUAKE SCIENCE AND ENGINEERING[Internet]. 2017;4(1 ):11-26. Available from: https://sid.ir/paper/265850/en

IEEE: Copy

OMID TAVASOLI, and MAHMOUD GHAZAVI, “WAVE PROPAGATION ANALYSIS AND BEHAVIOUR OF PRECAST LIGHT-WEIGHT CONCRETE PILES DURING DRIVING,” BULLETIN OF EARTHQUAKE SCIENCE AND ENGINEERING, vol. 4, no. 1 , pp. 11–26, 2017, [Online]. Available: https://sid.ir/paper/265850/en

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